A finite automaton consists of a set of states, which we shall take to be the integers 1..n and a table transitions[state, input] giving a next state for each state and each input character. For our purposes, we shall assume that the input is always either 0 or 1. Further, certain of the states are designated accepting states. For our purposes, we shall assume that all and only the even numbered states are accepting. Two states p and q
are equivalent if either they are the same state, or (i) they are both accepting or both non-accepting, (ii) on input 0 they transfer to equivalent states, and (iii) on input 1 they transfer to equivalent states. Intuitively, equivalent states behave the same on all sequences of inputs; either both or neither lead to accepting states. Write a program using the MFSET operations that computes the sets of equivalent states of a given finite automaton.